Transport Properties for and Intermediate Valence Model of Tl2Mn2O7
Abstract
The appearance of colossal magneto resistance (CM) in Tl2Mn2O7 has stimulated many recent studies of the pyrochlore family of compounds A2B2O7. The double exchange (DE) model of Zener does not describe the CM in Tl2Mn2O7, because its metallic conductivity cannot be explained by doping. Here we employ Hubbard operators to reformulate the intermediate valence model used by Ventura and Alascio to describe the electronic structure and transport properties of this compound (Phys.Rev. B56, 14533 (1997)). Following Foglio and Figueira (Phys.Rev. B62, 7882 (2000)) we use approximate one-electron Green's Functions (GF) to calculate the thermopower and the static and dynamic conductivity of Tl2Mn2O7$ for several magnetic fields. A qualitative agreement was obtained with the experimental measurements of those properties. Although the agreement is far from perfect, these quantities are fairly well described by the same set of system parameters.
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